Author:
Andhari Saloni S.,Wavhale Ravindra D.,Dhobale Kshama D.,Tawade Bhausaheb V.,Chate Govind P.,Patil Yuvraj N.,Khandare Jayant J.,Banerjee Shashwat S.
Abstract
AbstractSelf-propelling magnetic nanorobots capable of intrinsic-navigation in biological fluids with enhanced pharmacokinetics and deeper tissue penetration implicates promising strategy in targeted cancer therapy. Here, multi-component magnetic nanobot designed by chemically conjugating magnetic Fe3O4 nanoparticles (NPs), anti-epithelial cell adhesion molecule antibody (anti-EpCAM mAb) to multi-walled carbon nanotubes (CNT) loaded with an anticancer drug, doxorubicin hydrochloride (DOX) is reported. Autonomous propulsion of the nanobots and their external magnetic guidance is enabled by enriching Fe3O4 NPs with dual catalytic-magnetic functionality. The nanobots propel at high velocities even in complex biological fluids. In addition, the nanobots preferably release DOX in the intracellular lysosomal compartment of human colorectal carcinoma (HCT116) cells by the opening of Fe3O4 NP gate. Further, nanobot reduce ex vivo HCT116 tumor spheroids more efficiently than free DOX. The multicomponent nanobot’s design represents a more pronounced method in targeting tumors with self-assisted anticancer drug delivery for ‘far-reaching’ sites in treating cancers.
Publisher
Springer Science and Business Media LLC
Cited by
54 articles.
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